EC:6.5.1.2 - FACTA Search

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Query: EC:6.5.1.2 (DNA ligase)
2,749 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Previous studies have described a partially defined system for the DNA-directed in vitro synthesis of beta-galactosidase (Kung, H.F., Redfield, B., Treadwell, B.V., Eskin, B., Spears, C., and Weissbach, H. (1977) J. Biol. Chem. 252, 6889-6894). An Ehrlich ascites extract was shown in these in vitro studies to acylate Escherichia coli tRNA with 13 amino acids, and the ascites extract was used in place of the corresponding 13 E. coli aminoacyl-tRNA synthetases. The present studies indicate that the ascites extract is supplying an additional protein factor, besides the aminoacyl-tRNA synthetases, that stimulates the DNA-directed synthesis of beta-galactosidase. The protein factor has been highly purified and may be functioning by protecting mRNA against degradation. In addition, NAD or T4 DNA ligase stimulates the synthesis of beta-galactosidase in the partially defined system.
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PMID:DNA-directed in vitro synthesis of beta-galactosidase. Purification and characterization of stimulatory factors in an ascites extract. 11 1

NAD prevents a DNA repair-type synthesis that is dependent on polymerase I in toluene-treated, X-irradiated Bacillus subtilis. In unirradiated preparations, NAD had little effect on an ATP-dependent, semiconservative synthesis but partially inhibited a repair-type synthesis. In a mutant lacking polymerase I (polA1-), the presence of NAD did not affect dTTP utilization in DNA synthesis. Nicotinamide mononucleotide (NMN) partially reverses the NAD inhibition of repair-type DNA synthesis. NADP and FAD were ineffective as substitutes for NAD. Since NAD is the cofactor for polynucleotide ligase in Bacillus subtilis and NMN is known to discharge AMP from the active AMP ligase complex, it is proposed that activation of DNA ligase reduces dTMP incorporation by reducing sites for, or limiting DNA polymerase I action.
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PMID:Depression by NAD of x-ray-induced repair-type DNA synthesis in toluene-treated Bacillus subtilis. 16 15

The cell-free extract from blue-green alga Anacystis nidulans contains enzymatic activities which repair in vitro transforming DNA of bacteriophage T4 damaged by UV light or X-rays. The repair effect of the extract was observed with double-stranded irradiated DNA but not with denatured irradiated DNA. The level of restoration of the transforming activity depends on the protein concentration in the reaction mixture and on the dose of irradiation. A fraction of DNA lesions induced by X-rays is repaired by a NAD-dependent polynucleotide ligase present in the extract. The repair of UV-induced lesions is the most efficient in the presence of magnesium ions, NAD, ATP and the four deoxynucleoside triphosphates. The results indicate that the repair of UV-irradiated DNA is performed with the participation of DNA polymerase and polynucleotide ligase which function in the cell-free extract of the algae on the background of a low deoxyribonuclease activity.
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PMID:In vitro repair of UV-or x-irradiated bacteriophage T4 DNA by extract from blue-green alga Anacystis nidulans. 16 64

Limited treatment of Escherichia coli DNA ligase with trypsin results in rapid loss of DNA joining activity. However, the ability to react with DPN to form the covalent enzyme-AMP intermediate is unaffected. The cleaved enzyme is also unable to catalyze the formation of DNA-adenylate, the second covalent intermediate in the ligase-catalyzed reaction. These findings demonstrate that portions of the DNA ligase molecule that are required for phosphodiester bond formation are not required for at least one of the partial reactions catalyzed by this enzyme.
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PMID:Modification of Escherichia coli DNA ligase by cleavage with trypsin. 17 97

Both H2O2 (IC50 = 70 microM) and HOCl (IC50 = 8.5 microM) inhibited mitogen-induced MNL proliferation in a dose-dependent manner. This was found to be due to a depletion of intracellular ATP by at least two distinct mechanisms. HOCl and high concentrations (greater than 100 microM) of H2O2 inhibit ATP generation via sulfhydryl group oxidation on the active site of the glyceraldehyde-3-phosphate dehydrogenase (G3PDH) enzyme of the glycolytic pathway. On the other hand, low H2O2 concentrations cause ATP depletion by an activation of the DNA repair enzyme, poly(ADP-ribose)polymerase (pADPRP), leading to consumption of NAD+, an essential cofactor for G3PDH. The anti-oxidants ascorbate and cysteine protected MNL against the anti-proliferative effects of HOCl. Similar results were achieved with the HOCl-mediated inhibition of ATP production and G3PDH activity. However, ascorbate was unable to protect against H2O2-mediated inhibition of MNL functions, while cysteine protected against the inhibitory effects on ATP production and G3PDH activity, induced by this oxidant.
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PMID:Biochemical mechanisms of hydrogen peroxide- and hypochlorous acid-mediated inhibition of human mononuclear leukocyte functions in vitro: protection and reversal by anti-oxidants. 132 47

We surveyed the occurrence of unique restriction sites on the cDNAs of viroids, virusoids, and plant viral satellite RNAs that have a circular RNA as an intermediate of replication and found that four such sites would linearize their circular cDNAs. A rapid and simple method was then developed for cloning a naturally occurring viroid from Nematanthus wettsteinii plants. First-strand cDNA was synthesized using random hexanucleotide DNA primers and M-MuLV reverse transcriptase (Superscript RT). Second-strand DNA was synthesized by employing the replacement synthesis method using Escherichia coli RNase H, E. coli DNA polymerase I, E. coli DNA ligase, and beta-NAD+. The circular double-stranded DNA was analyzed for the presence of commonly available, unique restriction sites and subsequently linearized with a selected restriction enzyme. The linear cDNA was ligated to dephosphorylated plasmid vector pGEM 3Z f(+) and cloned in E. coli strain DH5 alpha. This cDNA cloning procedure is suitable for cloning sequence variants of well-characterized viroids, virusoids, certain plant viral satellite RNAs, and new such pathogens of unknown sequence.
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PMID:A rapid and versatile method for cloning viroids or other circular plant pathogenic RNAs. 138 86

A 3382 bp fragment containing a gene for a DNA ligase from the extremely thermophilic, acidophilic, and facultatively anaerobic archaeon (archaebacterium) Desulfurolobus ambivalens was cloned and sequenced. The deduced amino acid sequence (600 amino acids, 67619 molecular weight) showed 30-34% sequence identity with the ATP-dependent eucaryal (eukaryotic) DNA ligases of Schizosaccharomyces pombe, Saccharomyces cerevisiae, the human DNA ligase I, and with the Vaccinia DNA ligase. Distant similarity to the DNA ligases from the bacteriophages T3, T4, T6, T7 and the African swine fever virus was found, whereas no similarities were detectable to the NAD-dependent DNA ligases from the bacteria (eubacteria) Escherichia coli and Thermus thermophilus, to the ATP-dependent RNA-ligase of bacteriophage T4, and to the tRNA-Ligase from S.cerevisiae. A detailed comparison of the phylogenetic relationship of the amino acid sequences of all known DNA and RNA ligases is presented including a complete alignment of the ATP-dependent DNA ligases. The in vivo-transcription initiation and termination sites of the D.ambivalens gene were mapped. The calculated transcript length was 1904-1911 nt.
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PMID:Molecular characterisation of a DNA ligase gene of the extremely thermophilic archaeon Desulfurolobus ambivalens shows close phylogenetic relationship to eukaryotic ligases. 143 56

Bacterial DNA ligases use NAD as an energy source. In this study we addressed two questions about these enzymes. First, what is the physiological consequence of completely removing the NAD-dependent enzyme and replacing it with an ATP-dependent DNA ligase? We constructed Salmonella typhimurium strains in which the endogenous NAD-dependent DNA ligase activity was inactivated by an insertion mutation and the ATP-dependent enzyme from bacteriophage T4 was provided by a cloned phage gene. Such strains were physiologically indistinguishable from the wild type, even under conditions of UV irradiation or treatment with alkylating agents. These results suggest that specific functional interactions between DNA ligase and other replication and repair enzymes may be unimportant under the conditions tested. Second, the importance of DNA ligation as the initiating event of the bacterial pyridine nucleotide cycle was critically assessed in these mutant strains. Surprisingly, our results indicate that DNA ligation makes a minimal contribution to the pyridine nucleotide cycle; the Salmonella strains with only an ATP-dependent ligase had the same NAD turnover rates as the wild-type strain with an NAD-dependent ligase. However, we found that NAD turnover was significantly decreased under anaerobic conditions. We suggest that most intracellular pyridine nucleotide breakdown occurs in a process that protects the cell against oxygen damage but involves a biochemical mechanism other than DNA ligation.
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PMID:DNA ligase and the pyridine nucleotide cycle in Salmonella typhimurium. 264 88

The DNA ligase of Escherichia coli catalyses the NAD-dependent formation of phosphodiester linkages between 5'-phosphoryl and 3'-hydroxyl groups in DNA. It is essential for DNA replication and repair of damaged DNA strands. We determined the nucleotide sequence of the lig gene of Escherichia coli coding for DNA ligase and flanking regions. The coding frame of the gene was confirmed by the amino acid composition and the amino- and carboxyl-terminal amino acid sequences of the purified ligase. The ligase consists of 671 amino acid residues with a molecular weight of 73,690.
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PMID:Nucleotide sequence of the lig gene and primary structure of DNA ligase of Escherichia coli. 301 36

The loss of superhelical turns from a covalently closed duplex DNA exposed to bacteriophage T4 DNA ligase in the presence of AMP and Mg2+ has recently been found to be gradual and not sudden (Montecucco, A. and Ciarrocchi, G. (1988) Nucleic Acids Res. 16, 7369-7381). In this paper, we show that the AMP-dependent DNA relaxation catalyzed by human and E. coli DNA ligases also takes place according to a step-wise mechanism. DNA relaxation is inhibited by pyrophosphate, by ATP (or NAD in the case of the E. coli enzyme) and by high ionic strength and is essentially distributive with the human or T4 DNA ligases, and processive with the bacterial one. The AMP-dependent ability of DNA ligases to relax DNA might allow these enzymes to relieve possible topological complications of the nascent double helix generated by the replication of the lagging strand.
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PMID:Multiple roles of DNA ligase at the replication fork. 314 19

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